DE730777C - Process for achieving high brilliance and constant gradation when drying silver images - Google Patents

Description

Process for achieving high brilliance and constant gradation in Drying Developed Silver Images It is known that the gradation of a developed The silver image decreases when the layer dries, so that the image in the wet Simply more brilliant than the one that is then dried. This fact is especially inconvenient when high brilliance is desired.

It is also known that the brilliance of the finished silver image heavily on the drought conditions, d. H. of temperature, humidity, air movement etc., depends. If you dry z. B. at 50 ° and r5 °% humidity, you get a Far more brilliant picture than when drying at = 0 ° and 651f, dampness. Constant brilliance, especially when it comes to serial processing and large formats etc. is important, could previously only be achieved by keeping the dry conditions absolutely constant reach. However, even with a great deal of technical effort, this is rarely the case perfectly possible in unfavorable climatic conditions, e.g. B. in the tropics, but completely impossible.

It has now been found that both the gradation decrease and the gradation fluctuations can be eliminated by a simple procedure: namely, one brings the developed, fixed and watered image into one for a short time Solution of one or more substances from the class of complex carbohydrates and glycosides. After this treatment, the picture is briefly rinsed in a liquid, on the one hand to achieve greater brilliance and greater uniformity, on the other hand to prevent any noticeable surface changes. This will rinse off are generally made with water, but are just as well other non-aqueous solutions, alirige or compatible with water, with which under certain circumstances special Eifelde rrrrzielt can be applied, z. B. Hä rectification, desilfection, reduction of gluing and wrapping, among other things.

1 '.., shows -zielt (1-11I1, that the beginning bescliri (#l) new gradation return-on- not only canceled I , but a gra (lation is achieved that even with normal drying conditions is far above that of the wet llildes lies. la; ese high gradation is obtained without: \ m -, - ending of the new process only with great technical effort, nick: seldom, e.g. in unfavorable climatic conditions, not at all.

1? S also shows that the effect of fluctuating drying in the case of different or inconsistent trophy conditions, it is canceled. One can an image treated according to your new process at any temperature (below the melting point of the emulsion layer) and humidity when standing or moving Air dry, you will always get the same good gradation.

The advantages of the new process are summarized once again the following: i. l: rreicliting a high brilliance, -. Achieving constant brilliance, a) independence from dry conditions, h) independence from climatic conditions Conditions, c) saving of technical effort. It thus arises in all an extraordinary step forward.

On the one hand, the procedure will be used to advantage there, where high brilliance is desired, e.g. B. X-rays, reproductions, etc., on the other hand, where uniformity of the gradation is to be achieved, for example in motion picture films.

The underlay. on which the picture is located is for the procedure regardless of whether the emulsion layer is on one side or on both sides of a substrate is arranged or whether it consists of one or more superimposed layers consists. Furthermore, the effect is not influenced if the emulsion or emulsions Additions of any kind are added or incorporated subsequently are.

As already mentioned, complexes are particularly suitable for treatment Carbohydrates and glycosides. May be mentioned, without restricting the invention to Starch, water-soluble cellulose derivatives, such as. B. methyl cellulose, arabinose, Saponin, etc.

The concentration of these substances in the solutions is self-evident according to the nature @lerselli "n @, different and is about 15 to 20 ° /, in tweeter Solution. Other solvents can also be added to the liquid time.

It is true that photographic layers have been used earlier, be it for hardening, be it for the production of protective coatings, treated with chemically similar substances, The problem in the present case, however, is that after the treatment of the layers finitely these substances are followed by rewashing, which is not the case in the former case without destroying the effect again. Also is with the new procedure Compared to older ones, no special ouelling pre-coating of the image layer is necessary, because the substances used are easily absorbed by it. Example r Man produces a solution of 25o starch in 1.21 water and treats with this solution an exposed, developed, fixed and watered photographic film For 3 minutes. After a short final soak and drying, it is compared with a normally processed film of the same type and can determine the favorable change.

Example e An X-ray film is also treated after soaking for 3 minutes in a 25% solution of saponin in water to which 5 cc of methyl alcohol are added to every liter. Drying after a short final soak. It is known to accelerate the drying of photographic colloid layers by alcohols and o these alcohols to prevent the whitening of the layers, glycerol, sugar. Like. Add, but the alcohol concentration must thereby, just the opposite, as in this case, very high and, according to the technical literature, be at least 60% and the concentration of the additives kept low, Example 3 After normal development has ended, a pankine film is treated with a 20% solution of a water-soluble methylcellulose of medium viscosity for 21⁄2 minutes and also dried after a short final soak.

Example d.

A fully developed slide is treated in a 25% Dissolve arabinose in water for 3 minutes. Drying after a short final soak. example 5 You treat a fully developed one. (Fixed and watered film with a concentrated (z2. to 130 /,) starch solution for about 3 to 5 minutes. After short The final rinse (1 to 3 minutes) is dried.

Example 6 A fully developed, fixed and soaked film with an aqueous dextrin solution (about 2 parts of dextrin to 1 part Water) for about 2 to 5 minutes. -After a short final soak, it is dried.

Example? A developed, fixed and watered X-ray film is treated for 3 minutes with a starch solution according to Example I. - The final wash is in a 100% alkaline formalin solution or in a d. up to 5 per cent Chrome alum solution made. Soak for about 2 to 4 minutes.

Example S to treat a motion picture after completion of normal development of about 2 to 3 minutes with about a 28 o / o solution of water-soluble methyl cellulose medium viscosity according to Example 3. The 5chlußwässerungsbad be for-soothing, and thus to prevent the rolling of the dried film 1o to 30 cc Glycerine or glycol added to i 1.

Example 9 A fully developed, fixed and watered film is for 3 to 5 minutes with an aqueous dextrin solution according to the example 6 treated, rewashed for a few minutes in a water that contains i 1 i g of thymol and dried.

Claims (2)

PATENT CLAIMS: i. Process for achieving high brilliance and for achieving a constant gradation, independent of the drying conditions, on finished silver images created in halogen silver emulsion layers, characterized in that the developed, fixed and watered image is treated for a short time with an aqueous solution of complex carbohydrates and / or glycosides, watered again and then dries. 2. The method according to .Anspruch i, characterized in that that one special, in itself, to the last soaking water after the aftertreatment known additives, for example for hardening, disinfection, prevention of sticking and rolling or the like.